Quantum Mechanics, Band 2Wiley, 1977 - 1524 Seiten Beginning students of quantum mechanics frequently experience difficulties separating essential underlying principles from the specific examples to which these principles have been historically applied. Nobel-Prize-winner Claude Cohen-Tannoudji and his colleagues have written this book to eliminate precisely these difficulties. Fourteen chapters provide a clarity of organization, careful attention to pedagogical details, and a wealth of topics and examples which make this work a textbook as well as a timeless reference, allowing to tailor courses to meet students' specific needs. Each chapter starts with a clear exposition of the problem which is then treated, and logically develops the physical and mathematical concept. These chapters emphasize the underlying principles of the material, undiluted by extensive references to applications and practical examples which are put into complementary sections. The book begins with a qualitative introduction to quantum mechanical ideas using simple optical analogies and continues with a systematic and thorough presentation of the mathematical tools and postulates of quantum mechanics as well as a discussion of their physical content. Applications follow, starting with the simplest ones like e.g. the harmonic oscillator, and becoming gradually more complicated (the hydrogen atom, approximation methods, etc.). The complementary sections each expand this basic knowledge, supplying a wide range of applications and related topics as well as detailed expositions of a large number of special problems and more advanced topics, integrated as an essential portion of the text. |
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Complements of chapter II | 896 |
VOLUME I | 897 |
General properties of angular momentum in quantum | 899 |
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approximation associated assume atomic orbitals basis Bohr calculate chap chapter Clebsch-Gordan coefficients commute complement components consider constant corresponding coupling cross section d³r degeneracy degenerate diagonal dipole dipole-dipole interaction effect eigenstates eigenvectors electric energy levels equal example expansion expression figure formula free spherical waves frequency Hamiltonian hydrogen atom hyperfine structure integral j₁ j₂ k₁ k₂ kets linear combination m₁ m₂ magnetic field magnetic moment matrix elements mean value molecule momenta multipole moments multipole operator non-zero nucleus obtain oscillator P₁ P₂ partial waves perturbation theory physical potential V(r proton quantum mechanics quantum numbers relation resonance rotation S₁ S₁₂ S₂ scalar space spherical harmonics spin 1/2 particles subspace tensor term theorem total angular momentum variational method w₂ wave functions wave packet Wigner-Eckart theorem Zeeman Zeeman effect zero Απ